Make sure to think about data backup before you proceed with the below guide.
Tested on HP Elitebook 840 G6 in April 2024.
There are various options for creating a bootable USB drive.
⚠ This post is fairly old. I don't keep it up to date. Be sure to see comments where some people have posted updates
What this will cover
www.website.com
to website.com
index.html
)#!/usr/bin/env python | |
# -*- coding: utf-8 -*- | |
# | |
# This is how I used it: | |
# $ cat ~/.bash_history | python bash-to-zsh-hist.py >> ~/.zsh_history | |
import sys | |
import time | |
#To Decrypt Jenkins Password from credentials.xml | |
#<username>jenkins</username> | |
#<passphrase>your-sercret-hash-S0SKVKUuFfUfrY3UhhUC3J</passphrase> | |
#go to the jenkins url | |
http://jenkins-host/script | |
#In the console paste the script | |
hashed_pw='your-sercret-hash-S0SKVKUuFfUfrY3UhhUC3J' |
-- requires subliminal, version 1.0 or newer | |
-- default keybinding: b | |
-- add the following to your input.conf to change the default keybinding: | |
-- keyname script_binding auto_load_subs | |
local utils = require 'mp.utils' | |
function load_sub_fn() | |
subl = "/usr/local/bin/subliminal" -- use 'which subliminal' to find the path | |
mp.msg.info("Searching subtitle") | |
mp.osd_message("Searching subtitle") | |
t = {} |
var degrees2meters = function(lon,lat) { | |
var x = lon * 20037508.34 / 180; | |
var y = Math.log(Math.tan((90 + lat) * Math.PI / 360)) / (Math.PI / 180); | |
y = y * 20037508.34 / 180; | |
return [x, y] | |
} | |
//test | |
lon= -77.035974 | |
lat = 38.898717 |
As configured in my dotfiles.
start new:
tmux
start new with session name:
from collections import namedtuple | |
def convert(dictionary): | |
return namedtuple('GenericDict', dictionary.keys())(**dictionary) | |
""" | |
>>> d = dictionary(a=1, b='b', c=[3]) | |
>>> named = convert(d) | |
>>> named.a == d.a | |
True | |
>>> named.b == d.b |
// See https://wiki.openstreetmap.org/wiki/Slippy_map_tilenames for more details. | |
var degrees2meters = function(lon,lat) { | |
var x = lon * 20037508.34 / 180; | |
var y = Math.log(Math.tan((90 + lat) * Math.PI / 360)) / (Math.PI / 180); | |
y = y * 20037508.34 / 180; | |
return [x, y] | |
} | |
x= -77.035974 |